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refine code

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fix bug that listbox may throw std::runtime when the modal is enabled
fix bug that textbox attachs a wrong event angent
This commit is contained in:
Jinhao 2016-08-10 01:46:13 +08:00
parent 185a2961d1
commit 6e86b6ae6c
44 changed files with 1120 additions and 1013 deletions
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14
include/nana/detail/win32/platform_spec.hpp
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@ -17,13 +17,11 @@
#ifndef NANA_DETAIL_PLATFORM_SPEC_HPP
#define NANA_DETAIL_PLATFORM_SPEC_HPP
#include <nana/deploy.hpp>
#include <nana/gui/basis.hpp>
#include <nana/paint/image.hpp>
#include <nana/gui/detail/event_code.hpp>
#include <windows.h>
#include <map>
#include <memory>
#include <functional>
@ -174,6 +172,12 @@ namespace detail
class platform_spec
{
platform_spec();
platform_spec(const platform_spec&) = delete;
platform_spec& operator=(const platform_spec&) = delete;
platform_spec(platform_spec&&) = delete;
platform_spec& operator=(platform_spec&&) = delete;
public:
typedef drawable_impl_type::font_ptr_t font_ptr_t;
typedef ::nana::event_code event_code;
@ -194,7 +198,7 @@ namespace detail
::nana::paint::image big_icon;
};
platform_spec();
~platform_spec();
const font_ptr_t& default_native_font() const;
void default_native_font(const font_ptr_t&);
@ -207,8 +211,8 @@ namespace detail
void keep_window_icon(native_window_type, const paint::image&sml_icon, const paint::image& big_icon);
void release_window_icon(native_window_type);
private:
font_ptr_t def_font_ptr_;
std::map<native_window_type, window_icons> iconbase_;
struct implementation;
implementation * const impl_;
};
}//end namespace detail

27
include/nana/gui/detail/element_store.hpp
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@ -1,7 +1,7 @@
/*
* The Store for the Storage Of Elements
* Nana C++ Library(http://www.nanapro.org)
* Copyright(C) 2003-2014 Jinhao(cnjinhao@hotmail.com)
* Copyright(C) 2003-2016 Jinhao(cnjinhao@hotmail.com)
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
@ -16,9 +16,7 @@
#include <nana/gui/element.hpp>
#include <nana/pat/cloneable.hpp>
#include <map>
#include <string>
#include <nana/push_ignore_diagnostic>
@ -28,27 +26,20 @@ namespace detail
{
class element_store
{
typedef ::nana::element::element_interface element_interface;
typedef pat::cloneable< ::nana::element::element_interface> cloneable_element;
using element_interface = ::nana::element::element_interface;
using cloneable_element = pat::cloneable< ::nana::element::element_interface>;
struct data
{
cloneable_element object;
::nana::element::element_interface * fast_ptr;
data();
};
struct store
{
std::map<std::string, data> table;
};
struct data;
public:
element_store();
~element_store();
element_interface * const * bground(const std::string&);
void bground(const std::string&, const pat::cloneable<element_interface>&);
void bground(const std::string&, pat::cloneable<element_interface>&&);
private:
store bground_;
struct implementation;
std::unique_ptr<implementation> impl_;
};
}//end namespace detail
}

4
include/nana/gui/detail/inner_fwd_implement.hpp
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@ -133,10 +133,10 @@ namespace nana{
class root_register
{
public:
root_misc* insert(native_window_type wd, const root_misc& misc)
root_misc* insert(native_window_type wd, root_misc&& misc)
{
recent_ = wd;
auto ret = table_.insert(std::make_pair(wd, misc));
auto ret = table_.emplace(wd, std::move(misc));
misc_ptr_ = &(ret.first->second);
return misc_ptr_;
}

25
include/nana/gui/detail/window_manager.hpp
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@ -20,18 +20,11 @@
#include <nana/push_ignore_diagnostic>
#include <vector>
#include "window_layout.hpp"
#include "event_code.hpp"
#include "inner_fwd.hpp"
#include <functional>
#if defined(STD_THREAD_NOT_SUPPORTED)
#include <nana/std_mutex.hpp>
#else
#include <mutex>
#endif
namespace nana
{
class widget; //forward declaration
@ -51,15 +44,14 @@ namespace detail
class window_manager
{
class revertible_mutex
: public std::recursive_mutex
{
struct thr_refcnt
{
unsigned tid;
std::size_t refcnt;
};
revertible_mutex(const revertible_mutex&) = delete;
revertible_mutex& operator=(const revertible_mutex&) = delete;
revertible_mutex(revertible_mutex&&) = delete;
revertible_mutex& operator=(revertible_mutex&&) = delete;
public:
revertible_mutex();
~revertible_mutex();
void lock();
bool try_lock();
@ -68,8 +60,8 @@ namespace detail
void revert();
void forward();
private:
thr_refcnt thr_;
std::vector<thr_refcnt> stack_;
struct implementation;
implementation * const impl_;
};
public:
using native_window = native_window_type;
@ -90,7 +82,6 @@ namespace detail
bool available(core_window_t*);
bool available(core_window_t *, core_window_t*);
bool available(native_window_type);
core_window_t* create_root(core_window_t*, bool nested, rectangle, const appearance&, widget*);
core_window_t* create_widget(core_window_t*, const rectangle&, bool is_lite, widget*);
@ -157,7 +148,7 @@ namespace detail
bool calc_window_point(core_window_t*, nana::point&);
root_misc* root_runtime(native_window_type) const;
root_misc* root_runtime(native_window) const;
bool register_shortkey(core_window_t*, unsigned long key);
void unregister_shortkey(core_window_t*, bool with_children);

10
include/nana/gui/element.hpp
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@ -16,7 +16,6 @@
#include <nana/paint/graphics.hpp>
#include <nana/pat/cloneable.hpp>
#include <vector>
#include <map>
namespace nana
{
@ -338,13 +337,8 @@ namespace nana
struct draw_image;
struct draw_graph;
draw_method * method_;
bool vertical_;
nana::rectangle valid_area_;
std::vector<element_state> states_;
std::map<element_state, element_state> join_;
bool stretch_all_;
unsigned left_, top_, right_, bottom_;
struct implementation;
std::unique_ptr<implementation> impl_;
}; //end class bground
}//end namespace element
}//end namespace nana

1
include/nana/gui/place.hpp
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@ -17,7 +17,6 @@
#define NANA_GUI_PLACE_HPP
#include <nana/push_ignore_diagnostic>
#include <nana/gui/basis.hpp>
#include <utility>
#include <memory>
#include <functional>

3
include/nana/gui/programming_interface.hpp
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@ -347,7 +347,8 @@ namespace API
* When you are finished with the caret, be sure to reset the pointer.
*
* @param window_handle A handle to a window whose caret is to be retrieved
* @return a pointer to the caret proxy. nullptr if the window doesn't have a caret.
* @return a pointer to the caret proxy.
* @except throws std::runtime if the window doesn't have a caret when disable_throw is false
*/
::std::unique_ptr<caret_interface> open_caret(window window_handle, bool disable_throw = false);

6
include/nana/gui/widgets/listbox.hpp
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@ -720,7 +720,7 @@ namespace nana
class iresolver
{
public:
iresolver(const std::vector<cell>&);
iresolver(std::vector<cell>);
iresolver& operator>>(bool&);
iresolver& operator>>(short&);
@ -740,7 +740,7 @@ namespace nana
iresolver& operator>>(cell&);
iresolver& operator>>(std::nullptr_t);
private:
const std::vector<cell>& cells_;
std::vector<cell> cells_;
std::size_t pos_{0};
};
@ -918,7 +918,7 @@ namespace nana
//Undocumented method
essence * _m_ess() const;
private:
std::vector<cell> & _m_cells() const;
std::vector<cell> _m_cells() const;
nana::any * _m_value(bool alloc_if_empty);
const nana::any * _m_value() const;
private:

169
include/nana/gui/widgets/skeletons/text_editor.hpp
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@ -17,109 +17,26 @@
#include "textbase.hpp"
#include "text_editor_part.hpp"
#include <nana/gui/widgets/scroll.hpp>
#include <nana/unicode_bidi.hpp>
//#include <nana/paint/graphics.hpp>
#include <nana/gui/detail/general_events.hpp>
#include <functional>
namespace nana
{
namespace paint
{
// Forward declaration
class graphics;
}
}
namespace nana{ namespace widgets
{
namespace skeletons
{
template<typename EnumCommand>
class undoable_command_interface
{
public:
virtual ~undoable_command_interface() = default;
virtual EnumCommand get() const = 0;
virtual bool merge(const undoable_command_interface&) = 0;
virtual void execute(bool redo) = 0;
};
template<typename EnumCommand>
class undoable
{
public:
using command = EnumCommand;
using container = std::deque < std::unique_ptr<undoable_command_interface<command>> >;
void clear()
{
commands_.clear();
pos_ = 0;
}
void max_steps(std::size_t maxs)
{
max_steps_ = maxs;
if (maxs && (commands_.size() >= maxs))
commands_.erase(commands_.begin(), commands_.begin() + (commands_.size() - maxs + 1));
}
std::size_t max_steps() const
{
return max_steps_;
}
void enable(bool enb)
{
enabled_ = enb;
if (!enb)
clear();
}
bool enabled() const
{
return enabled_;
}
void push(std::unique_ptr<undoable_command_interface<command>> && ptr)
{
if (!ptr || !enabled_)
return;
if (pos_ < commands_.size())
commands_.erase(commands_.begin() + pos_, commands_.end());
else if (max_steps_ && (commands_.size() >= max_steps_))
commands_.erase(commands_.begin(), commands_.begin() + (commands_.size() - max_steps_ + 1));
pos_ = commands_.size();
if (!commands_.empty())
{
if (commands_.back().get()->merge(*ptr))
return;
}
commands_.emplace_back(std::move(ptr));
++pos_;
}
std::size_t count(bool is_undo) const
{
return (is_undo ? pos_ : commands_.size() - pos_);
}
void undo()
{
if (pos_ > 0)
{
--pos_;
commands_[pos_].get()->execute(false);
}
}
void redo()
{
if (pos_ != commands_.size())
commands_[pos_++].get()->execute(true);
}
private:
container commands_;
bool enabled_{ true };
std::size_t max_steps_{ 30 };
std::size_t pos_{ 0 };
};
class text_editor
{
struct attributes;
@ -136,9 +53,14 @@ namespace nana{ namespace widgets
class undo_input_text;
class undo_move_text;
struct keywords;
class keyword_parser;
class helper_pencil;
text_editor(const text_editor&) = delete;
text_editor& operator=(const text_editor&) = delete;
text_editor(text_editor&&) = delete;
text_editor& operator=(text_editor&&) = delete;
public:
using char_type = wchar_t;
using size_type = textbase<char_type>::size_type;
@ -148,9 +70,10 @@ namespace nana{ namespace widgets
using graph_reference = ::nana::paint::graphics&;
struct ext_renderer_tag
struct renderers
{
std::function<void(graph_reference, const nana::rectangle& text_area, const ::nana::color&)> background;
std::function<void(graph_reference, const nana::rectangle& text_area, const ::nana::color&)> background; ///< a customized background renderer
std::function<void(graph_reference, const ::nana::color&)> border; ///< a customized border renderer
};
enum class accepts
@ -178,11 +101,10 @@ namespace nana{ namespace widgets
/// Determine whether the text_editor is line wrapped.
bool line_wrapped() const;
/// Set the text_editor whether it is line wrapped, it returns false if the state is not changed.
bool line_wrapped(bool);
void border_renderer(std::function<void(graph_reference, const ::nana::color& bgcolor)>);
bool load(const char*);
/// Sets the text area.
@ -205,7 +127,7 @@ namespace nana{ namespace widgets
void undo_max_steps(std::size_t);
std::size_t undo_max_steps() const;
ext_renderer_tag& ext_renderer() const;
renderers& customized_renderers();
unsigned line_height() const;
unsigned screen_lines() const;
@ -267,8 +189,8 @@ namespace nana{ namespace widgets
bool mouse_move(bool left_button, const point& screen_pos);
bool mouse_pressed(const arg_mouse& arg);
skeletons::textbase<wchar_t>& textbase();
const skeletons::textbase<wchar_t>& textbase() const;
skeletons::textbase<char_type>& textbase();
const skeletons::textbase<char_type>& textbase() const;
private:
void _m_pre_calc_lines(std::size_t line_off, std::size_t lines);
@ -276,7 +198,9 @@ namespace nana{ namespace widgets
::nana::color _m_bgcolor() const;
bool _m_scroll_text(bool vertical);
void _m_scrollbar();
::nana::size _m_text_area() const;
::nana::rectangle _m_text_area() const;
void _m_get_scrollbar_size();
void _m_reset();
::nana::upoint _m_put(::std::wstring);
@ -295,9 +219,6 @@ namespace nana{ namespace widgets
int _m_text_top_base() const;
/// Returns the right/bottom point of text area.
int _m_end_pos(bool right) const;
void _m_draw_parse_string(const keyword_parser&, bool rtl, ::nana::point pos, const ::nana::color& fgcolor, const wchar_t*, std::size_t len) const;
//_m_draw_string
//@brief: Draw a line of string
@ -313,47 +234,28 @@ namespace nana{ namespace widgets
unsigned _m_char_by_pixels(const unicode_bidi::entity&, unsigned pos);
unsigned _m_pixels_by_char(const ::std::wstring&, ::std::size_t pos) const;
void _handle_move_key(const arg_keyboard& arg);
void _m_handle_move_key(const arg_keyboard& arg);
void _m_draw_border();
private:
std::unique_ptr<editor_behavior_interface> behavior_;
undoable<command> undo_;
struct implementation;
implementation * const impl_;
nana::window window_;
std::unique_ptr<caret_interface> caret_;
graph_reference graph_;
const text_editor_scheme* scheme_;
event_interface * event_handler_{ nullptr };
std::unique_ptr<keywords> keywords_;
skeletons::textbase<wchar_t> textbase_;
wchar_t mask_char_{0};
mutable ext_renderer_tag ext_renderer_;
std::vector<upoint> text_position_; //position of text from last rendering.
struct indent_rep
{
bool enabled{ false };
std::function<std::string()> generator;
}indent_;
struct attributes
{
accepts acceptive{ accepts::no_restrict };
std::function<bool(char_type)> pred_acceptive;
::std::string tip_string;
bool line_wrapped{false};
bool multi_lines{true};
bool editable{true};
bool enable_background{true};
bool enable_counterpart{false};
nana::paint::graphics counterpart; //this is used to keep the background that painted by external part.
std::unique_ptr<nana::scroll<true>> vscroll;
std::unique_ptr<nana::scroll<false>> hscroll;
}attributes_;
struct text_area_type
@ -365,7 +267,6 @@ namespace nana{ namespace widgets
unsigned scroll_pixels;
unsigned vscroll;
unsigned hscroll;
std::function<void(nana::paint::graphics&, const ::nana::color&)> border_renderer;
}text_area_;
struct selection

4
include/nana/gui/widgets/slider.hpp
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@ -1,7 +1,7 @@
/**
* A Slider Implementation
* Nana C++ Library(http://www.nanapro.org)
* Copyright(C) 2003-2015 Jinhao(cnjinhao@hotmail.com)
* Copyright(C) 2003-2016 Jinhao(cnjinhao@hotmail.com)
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
@ -134,7 +134,7 @@ namespace nana
}//end namespace drawerbase
/// A slider widget wich the user can drag for tracking \todo add scheme ?
/// A slider widget wich the user can drag for tracking
class slider
: public widget_object<category::widget_tag, drawerbase::slider::trigger, drawerbase::slider::slider_events, drawerbase::slider::scheme_impl>
{

22
include/nana/gui/widgets/widget.hpp
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@ -28,14 +28,25 @@ namespace nana
/// Abstract class for defining the capacity interface.
class widget
: nana::noncopyable, nana::nonmovable
{
friend class detail::widget_notifier_interface;
class inner_widget_notifier;
typedef void(*dummy_bool_type)(widget* (*)(const widget&));
//Noncopyable
widget(const widget&) = delete;
widget& operator=(const widget&) = delete;
//Nonmovable
widget(widget&&) = delete;
widget& operator=(widget&&) = delete;
public:
using native_string_type = detail::native_string_type;
widget() = default;
virtual ~widget() = default;
virtual window handle() const = 0; ///< Returns the handle of window, returns 0 if window is not created.
bool empty() const; ///< Determines whether the manipulator is handling a window.
@ -298,15 +309,8 @@ namespace nana
using event_type = Events;
widget_object()
: widget_object(nullptr, false, API::make_center(300, 150), appearance(), this)
{
handle_ = API::dev::create_window(nullptr, false, API::make_center(300, 150), appearance(), this);
_m_bind_and_attach();
}
widget_object(const rectangle& r, const appearance& apr = {})
{
handle_ = API::dev::create_window(nullptr, false, r, apr, this);
_m_bind_and_attach();
}
widget_object(window owner, bool nested, const rectangle& r = {}, const appearance& apr = {})

3
include/nana/internationalization.hpp
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@ -12,7 +12,6 @@
#ifndef NANA_INTERNATIONALIZATION_HPP
#define NANA_INTERNATIONALIZATION_HPP
#include "basic_types.hpp"
#include <vector>
#include <sstream>
#include <functional>
@ -186,9 +185,7 @@ namespace nana
void _m_add_args(const std::string&);
void _m_add_args(std::string&&);
void _m_add_args(std::wstring&);
void _m_add_args(const std::wstring&);
void _m_add_args(std::wstring&&);
private:
std::string msgid_;
std::vector<std::unique_ptr<eval_arg>> args_;

25
include/nana/paint/graphics.hpp
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@ -1,7 +1,7 @@
/*
* Paint Graphics Implementation
* Nana C++ Library(http://www.nanapro.org)
* Copyright(C) 2003-2014 Jinhao(cnjinhao@hotmail.com)
* Copyright(C) 2003-2016 Jinhao(cnjinhao@hotmail.com)
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
@ -17,7 +17,6 @@
#include "../basic_types.hpp"
#include "../gui/basis.hpp"
#include "pixel_buffer.hpp"
namespace nana
{
@ -72,12 +71,16 @@ namespace nana
class graphics
{
public:
typedef ::nana::native_window_type native_window_type;
graphics();
graphics(const ::nana::size&); ///< size in pixel
graphics(const graphics&); ///< the resource is not copyed, the two graphics objects refer to the *SAME* resource
graphics& operator=(const graphics&);
graphics(graphics&&);
graphics& operator=(graphics&&);
~graphics();
bool changed() const; ///< Returns true if the graphics object is operated
bool empty() const; ///< Returns true if the graphics object does not refer to any resource.
operator const void*() const;
@ -129,10 +132,10 @@ namespace nana
void flush();
unsigned width() const;
unsigned height() const; ///< Returns the height of the off-screen buffer.
unsigned width() const; ///< Returns the width of the off-screen buffer.
unsigned height() const; ///< Returns the height of the off-screen buffer.
::nana::size size() const;
void setsta(); ///< Clears the status if the graphics object had been changed
void setsta(); ///< Clears the status if the graphics object had been changed
void set_changed();
void release();
@ -172,12 +175,8 @@ namespace nana
void gradual_rectangle(const ::nana::rectangle&, const color& from, const color& to, bool vertical);
void round_rectangle(const ::nana::rectangle&, unsigned radius_x, unsigned radius_y, const color&, bool solid, const color& color_if_solid);
private:
std::shared_ptr< ::nana::detail::drawable_impl_type> dwptr_;
font font_shadow_;
drawable_type handle_;
::nana::size size_;
pixel_buffer pxbuf_;
bool changed_;
struct implementation;
std::unique_ptr<implementation> impl_;
};
}//end namespace paint
} //end namespace nana

2
source/audio/detail/audio_device.cpp
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@ -184,7 +184,7 @@ namespace nana{namespace audio
{
#if defined(NANA_WINDOWS)
std::lock_guard<decltype(queue_lock_)> lock(queue_lock_);
done_queue_.push_back(m);
done_queue_.emplace_back(m);
if(m->dwFlags & WHDR_PREPARED)
wave_native_if.out_unprepare(handle_, m, sizeof(WAVEHDR));

6
source/audio/detail/buffer_preparation.cpp
View File

@ -30,7 +30,7 @@ namespace nana{ namespace audio
m->bufsize = ck.nAvgBytesPerSec;
m->buf = rawbuf + sizeof(meta);
#endif
prepared_.push_back(m);
prepared_.emplace_back(m);
}
thr_ = std::move(std::thread([this](){this->_m_prepare_routine();}));
@ -79,7 +79,7 @@ namespace nana{ namespace audio
{
std::lock_guard<decltype(token_prepared_)> lock(token_prepared_);
bool if_signal = prepared_.empty();
prepared_.push_back(m);
prepared_.emplace_back(m);
if(if_signal)
cond_prepared_.notify_one();
}
@ -148,7 +148,7 @@ namespace nana{ namespace audio
m->bufsize = buffered;
#endif
std::lock_guard<decltype(token_buffer_)> lock(token_buffer_);
buffer_.push_back(m);
buffer_.emplace_back(m);
if(wait_for_buffer_)
{
cond_buffer_.notify_one();

28
source/detail/platform_spec_windows.cpp
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@ -16,10 +16,10 @@
#if defined(NANA_WINDOWS)
#include <shellapi.h>
#include <stdexcept>
#include <map>
#include <shellapi.h>
///////////////////////////////////////////////////////////////////////////////////////////////////////
@ -352,7 +352,14 @@ namespace detail
}
}
struct platform_spec::implementation
{
font_ptr_t def_font_ptr;
std::map<native_window_type, window_icons> iconbase;
};
platform_spec::platform_spec()
: impl_{ new implementation}
{
//Create default font object.
NONCLIENTMETRICS metrics = {};
@ -370,17 +377,22 @@ namespace detail
#endif
#endif
::SystemParametersInfo(SPI_GETNONCLIENTMETRICS, sizeof metrics, &metrics, 0);
def_font_ptr_ = make_native_font(to_utf8(metrics.lfMessageFont.lfFaceName).c_str(), font_size_to_height(9), 400, false, false, false);
impl_->def_font_ptr = make_native_font(to_utf8(metrics.lfMessageFont.lfFaceName).c_str(), font_size_to_height(9), 400, false, false, false);
}
platform_spec::~platform_spec()
{
delete impl_;
}
const platform_spec::font_ptr_t& platform_spec::default_native_font() const
{
return def_font_ptr_;
return impl_->def_font_ptr;
}
void platform_spec::default_native_font(const font_ptr_t& fp)
{
def_font_ptr_ = fp;
impl_->def_font_ptr = fp;
}
unsigned platform_spec::font_size_to_height(unsigned size) const
@ -409,7 +421,7 @@ namespace detail
if (name && *name)
std::wcscpy(logfont.lfFaceName, to_wstring(name).c_str());
else
std::wcscpy(logfont.lfFaceName, def_font_ptr_->name.c_str());
std::wcscpy(logfont.lfFaceName, impl_->def_font_ptr->name.c_str());
logfont.lfCharSet = DEFAULT_CHARSET;
HDC hdc = ::GetDC(0);
@ -448,14 +460,14 @@ namespace detail
void platform_spec::keep_window_icon(native_window_type wd, const paint::image& sml_icon, const paint::image& big_icon)
{
auto & icons = iconbase_[wd];
auto & icons = impl_->iconbase[wd];
icons.sml_icon = sml_icon;
icons.big_icon = big_icon;
}
void platform_spec::release_window_icon(native_window_type wd)
{
iconbase_.erase(wd);
impl_->iconbase.erase(wd);
}
}//end namespace detail
}//end namespace nana

2
source/gui/detail/basic_window.cpp
View File

@ -402,7 +402,7 @@ namespace nana
root = agrparent->root;
root_graph = agrparent->root_graph;
index = static_cast<unsigned>(agrparent->children.size());
agrparent->children.push_back(this);
agrparent->children.emplace_back(this);
}
predef_cursor = cursor::arrow;

2
source/gui/detail/bedrock_pi.cpp
View File

@ -600,7 +600,7 @@ namespace nana
{
root = wd->root;
if (roots.cend() == std::find(roots.cbegin(), roots.cend(), root))
roots.push_back(root);
roots.emplace_back(root);
}
}

4
source/gui/detail/drawer.cpp
View File

@ -338,7 +338,7 @@ namespace nana
for (auto p : data_impl_->draws)
{
if(p->diehard())
then.push_back(p);
then.emplace_back(p);
else
delete p;
}
@ -351,7 +351,7 @@ namespace nana
if(f)
{
auto p = new dynamic_drawing::user_draw_function(std::move(f), diehard);
data_impl_->draws.push_back(p);
data_impl_->draws.emplace_back(p);
return (diehard ? p : nullptr);
}
return nullptr;

38
source/gui/detail/element_store.cpp
View File

@ -1,7 +1,7 @@
/*
* The Store for the Storage Of Elements
* Nana C++ Library(http://www.nanapro.org)
* Copyright(C) 2003-2014 Jinhao(cnjinhao@hotmail.com)
* Copyright(C) 2003-2016 Jinhao(cnjinhao@hotmail.com)
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
@ -11,35 +11,53 @@
*/
#include <nana/gui/detail/element_store.hpp>
#include <map>
namespace nana
{
namespace detail
{
//class element_store
element_store::data::data()
: fast_ptr(nullptr)
struct element_store::data
{
cloneable_element entity;
::nana::element::element_interface * fast_ptr{ nullptr };
};
struct element_store::implementation
{
std::map<std::string, data> table;
};
element_store::element_store()
: impl_(new implementation)
{}
//Empty destructor for instance of impl
element_store::~element_store()
{}
nana::element::element_interface * const * element_store::bground(const std::string& name)
{
element_interface * const * addr = &(bground_.table[name].fast_ptr);
element_interface * const * addr = &(impl_->table[name].fast_ptr);
return addr;
}
void element_store::bground(const std::string& name, const pat::cloneable<element_interface>& rhs)
{
auto & store = bground_.table[name];
auto & store = impl_->table[name];
store.object = rhs;
store.fast_ptr = store.object.get();
store.entity = rhs;
store.fast_ptr = store.entity.get();
}
void element_store::bground(const std::string& name, pat::cloneable<element_interface>&& rv)
{
auto & store = bground_.table[name];
auto & store = impl_->table[name];
store.object = std::move(rv);
store.fast_ptr = store.object.get();
store.entity = std::move(rv);
store.fast_ptr = store.entity.get();
}
}//end namespace detail
}

6
source/gui/detail/window_layout.cpp
View File

@ -221,8 +221,8 @@ namespace nana
continue;
core_window_t * term = ((i + 1 != layers_rend) ? *(i + 1) : wd);
r.x = wd->pos_root.x - pre->pos_root.x;
r.y = wd->pos_root.y - pre->pos_root.y;
r.position(wd->pos_root - pre->pos_root);
for (auto child : pre->children)
{
if (child->index >= term->index)
@ -253,7 +253,7 @@ namespace nana
if (child->visible && overlap(r_of_wd, rectangle{ child->pos_owner, child->dimension }, ovlp))
{
if (category::flags::lite_widget != child->other.category)
glass_buffer.bitblt(nana::rectangle{ ovlp.x - wd->pos_owner.x, ovlp.y - wd->pos_owner.y, ovlp.width, ovlp.height }, child->drawer.graphics, nana::point(ovlp.x - child->pos_owner.x, ovlp.y - child->pos_owner.y));
glass_buffer.bitblt(nana::rectangle{ ovlp.x - wd->pos_owner.x, ovlp.y - wd->pos_owner.y, ovlp.width, ovlp.height }, child->drawer.graphics, {ovlp.position() - child->pos_owner});
ovlp.x += wd->pos_root.x;
ovlp.y += wd->pos_root.y;

201
source/gui/detail/window_manager.cpp
View File

@ -23,6 +23,12 @@
#include <stdexcept>
#include <algorithm>
#if defined(STD_THREAD_NOT_SUPPORTED)
#include <nana/std_mutex.hpp>
#else
#include <mutex>
#endif
namespace nana
{
@ -36,9 +42,7 @@ namespace detail
Key first;
Value second;
key_value_rep()
: first{}, second{}
{}
key_value_rep() = default;
key_value_rep(const Key& k)
: first(k), second{}
@ -69,19 +73,9 @@ namespace detail
return table_.end();
}
iterator erase(iterator pos)
std::vector<key_value_rep>& table()
{
return table_.erase(pos);
}
iterator begin()
{
return table_.begin();
}
iterator end()
{
return table_.end();
return table_;
}
private:
std::vector<key_value_rep> table_;
@ -109,27 +103,50 @@ namespace detail
//end struct wdm_private_impl
//class revertible_mutex
window_manager::revertible_mutex::revertible_mutex()
struct thread_refcount
{
thr_.tid = 0;
thr_.refcnt = 0;
unsigned tid;
std::size_t ref;
};
struct window_manager::revertible_mutex::implementation
{
std::recursive_mutex mutex;
thread_refcount thread;
std::vector<thread_refcount> invoke_stack;
};
window_manager::revertible_mutex::revertible_mutex()
: impl_(new implementation)
{
impl_->thread.tid = 0;
impl_->thread.ref = 0;
}
window_manager::revertible_mutex::~revertible_mutex()
{
delete impl_;
}
void window_manager::revertible_mutex::lock()
{
std::recursive_mutex::lock();
if(0 == thr_.tid)
thr_.tid = nana::system::this_thread_id();
++thr_.refcnt;
impl_->mutex.lock();
if(0 == impl_->thread.tid)
impl_->thread.tid = nana::system::this_thread_id();
++(impl_->thread.ref);
}
bool window_manager::revertible_mutex::try_lock()
{
if(std::recursive_mutex::try_lock())
if(impl_->mutex.try_lock())
{
if(0 == thr_.tid)
thr_.tid = nana::system::this_thread_id();
++thr_.refcnt;
if (0 == impl_->thread.tid)
impl_->thread.tid = nana::system::this_thread_id();
++(impl_->thread.ref);
return true;
}
return false;
@ -137,44 +154,45 @@ namespace detail
void window_manager::revertible_mutex::unlock()
{
if(thr_.tid == nana::system::this_thread_id())
if(0 == --thr_.refcnt)
thr_.tid = 0;
std::recursive_mutex::unlock();
if(impl_->thread.tid == nana::system::this_thread_id())
if(0 == --(impl_->thread.ref))
impl_->thread.tid = 0;
impl_->mutex.unlock();
}
void window_manager::revertible_mutex::revert()
{
if(thr_.refcnt && (thr_.tid == nana::system::this_thread_id()))
if(impl_->thread.ref && (impl_->thread.tid == nana::system::this_thread_id()))
{
std::size_t cnt = thr_.refcnt;
std::size_t cnt = impl_->thread.ref;
stack_.push_back(thr_);
thr_.tid = 0;
thr_.refcnt = 0;
impl_->invoke_stack.push_back(impl_->thread);
impl_->thread.tid = 0;
impl_->thread.ref = 0;
for(std::size_t i = 0; i < cnt; ++i)
std::recursive_mutex::unlock();
for (std::size_t i = 0; i < cnt; ++i)
impl_->mutex.unlock();
}
}
void window_manager::revertible_mutex::forward()
{
std::recursive_mutex::lock();
if(stack_.size())
impl_->mutex.lock();
if(impl_->invoke_stack.size())
{
auto thr = stack_.back();
auto thr = impl_->invoke_stack.back();
if(thr.tid == nana::system::this_thread_id())
{
stack_.pop_back();
for(std::size_t i = 0; i < thr.refcnt; ++i)
std::recursive_mutex::lock();
thr_ = thr;
impl_->invoke_stack.pop_back();
for (std::size_t i = 0; i < thr.ref; ++i)
impl_->mutex.lock();
impl_->thread = thr;
}
else
throw std::runtime_error("Nana.GUI: The forward is not matched.");
}
std::recursive_mutex::unlock();
impl_->mutex.unlock();
}
//end class revertible_mutex
@ -254,23 +272,13 @@ namespace detail
return (impl_->wd_register.available(a) && impl_->wd_register.available(b));
}
bool window_manager::available(native_window_type wd)
{
if(wd)
{
std::lock_guard<decltype(mutex_)> lock(mutex_);
return (impl_->misc_register.find(wd) != nullptr);
}
return false;
}
window_manager::core_window_t* window_manager::create_root(core_window_t* owner, bool nested, rectangle r, const appearance& app, widget* wdg)
{
native_window_type native = nullptr;
if (owner)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(owner))
{
@ -306,11 +314,10 @@ namespace detail
wd->title = native_interface::window_caption(result.native_handle);
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
//create Root graphics Buffer and manage it
root_misc misc(wd, result.width, result.height);
auto* value = impl_->misc_register.insert(result.native_handle, misc);
auto* value = impl_->misc_register.insert(result.native_handle, root_misc(wd, result.width, result.height));
wd->bind_native_window(result.native_handle, result.width, result.height, result.extra_width, result.extra_height, value->root_graph);
impl_->wd_register.insert(wd, wd->thread_id);
@ -331,7 +338,7 @@ namespace detail
window_manager::core_window_t* window_manager::create_frame(core_window_t* parent, const rectangle& r, widget* wdg)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(parent) == false) return nullptr;
@ -350,7 +357,7 @@ namespace detail
if(frame)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if(category::flags::frame == frame->other.category)
frame->other.attribute.frame->attach.push_back(wd);
return true;
@ -363,7 +370,7 @@ namespace detail
if(frame)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if(category::flags::frame == frame->other.category)
{
if (impl_->wd_register.available(wd) && (category::flags::root == wd->other.category) && wd->root != frame->root)
@ -380,7 +387,7 @@ namespace detail
window_manager::core_window_t* window_manager::create_widget(core_window_t* parent, const rectangle& r, bool is_lite, widget* wdg)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(parent) == false)
throw std::invalid_argument("invalid parent/owner handle");
@ -401,7 +408,7 @@ namespace detail
void window_manager::close(core_window_t *wd)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) == false) return;
if (wd->flags.destroying)
@ -443,7 +450,7 @@ namespace detail
void window_manager::destroy(core_window_t* wd)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) == false) return;
rectangle update_area(wd->pos_owner, wd->dimension);
@ -467,7 +474,7 @@ namespace detail
void window_manager::destroy_handle(core_window_t* wd)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) == false) return;
#ifndef WIDGET_FRAME_DEPRECATED
@ -491,7 +498,7 @@ namespace detail
{
if(!big_icon.empty() || !small_icon.empty())
{
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
{
if(category::flags::root == wd->other.category)
@ -505,7 +512,7 @@ namespace detail
bool window_manager::show(core_window_t* wd, bool visible)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return false;
@ -548,7 +555,7 @@ namespace detail
if((false == attr_.capture.ignore_children) || (nullptr == attr_.capture.window) || (attr_.capture.window->root != root))
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
auto rrt = root_runtime(root);
point pos{ x, y };
if (rrt && _m_effective(rrt->window, pos))
@ -561,7 +568,7 @@ namespace detail
bool window_manager::move(core_window_t* wd, int x, int y, bool passive)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
{
if (category::flags::root != wd->other.category)
@ -606,7 +613,7 @@ namespace detail
bool window_manager::move(core_window_t* wd, const rectangle& r)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return false;
@ -680,7 +687,7 @@ namespace detail
bool window_manager::size(core_window_t* wd, nana::size sz, bool passive, bool ask_update)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return false;
@ -767,7 +774,7 @@ namespace detail
if(cache.first == wd) return cache.second;
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
auto rrt = root_runtime(wd);
if(rrt)
@ -783,7 +790,7 @@ namespace detail
void window_manager::map(core_window_t* wd, bool forced, const rectangle* update_area)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) && !wd->is_draw_through())
{
auto parent = wd->parent;
@ -805,7 +812,7 @@ namespace detail
bool window_manager::update(core_window_t* wd, bool redraw, bool forced, const rectangle* update_area)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) == false) return false;
if (wd->displayed())
@ -837,7 +844,7 @@ namespace detail
void window_manager::refresh_tree(core_window_t* wd)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
//It's not worthy to redraw if visible is false
if (impl_->wd_register.available(wd) && wd->displayed())
@ -850,7 +857,7 @@ namespace detail
bool window_manager::do_lazy_refresh(core_window_t* wd, bool force_copy_to_screen, bool refresh_tree)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (false == impl_->wd_register.available(wd))
return false;
@ -888,7 +895,7 @@ namespace detail
bool window_manager::get_graphics(core_window_t* wd, nana::paint::graphics& result)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return false;
@ -901,7 +908,7 @@ namespace detail
bool window_manager::get_visual_rectangle(core_window_t* wd, nana::rectangle& r)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
return (impl_->wd_register.available(wd) ?
window_layer::read_visual_rectangle(wd, r) :
false);
@ -909,7 +916,7 @@ namespace detail
std::vector<window_manager::core_window_t*> window_manager::get_children(core_window_t* wd) const
{
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
return wd->children;
return{};
@ -918,7 +925,7 @@ namespace detail
bool window_manager::set_parent(core_window_t* wd, core_window_t* newpa)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return false;
@ -945,7 +952,7 @@ namespace detail
window_manager::core_window_t* window_manager::set_focus(core_window_t* wd, bool root_has_been_focused, arg_focus::reason reason)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return nullptr;
@ -1051,7 +1058,7 @@ namespace detail
if(wd != attr_.capture.window)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
{
@ -1112,7 +1119,7 @@ namespace detail
void window_manager::enable_tabstop(core_window_t* wd)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) && (detail::tab_type::none == wd->flags.tab))
{
wd->root_widget->other.attribute.root->tabstop.push_back(wd);
@ -1156,7 +1163,7 @@ namespace detail
auto window_manager::tabstop(core_window_t* wd, bool forward) const -> core_window_t*
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!impl_->wd_register.available(wd))
return nullptr;
@ -1198,7 +1205,7 @@ namespace detail
bool window_manager::enable_effects_bground(core_window_t* wd, bool enabled)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
return window_layer::enable_effects_bground(wd, enabled);
@ -1208,7 +1215,7 @@ namespace detail
bool window_manager::calc_window_point(core_window_t* wd, nana::point& pos)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
{
if(native_interface::calc_window_point(wd->root, pos))
@ -1220,7 +1227,7 @@ namespace detail
return false;
}
root_misc* window_manager::root_runtime(native_window_type native_wd) const
root_misc* window_manager::root_runtime(native_window native_wd) const
{
return impl_->misc_register.find(native_wd);
}
@ -1228,7 +1235,7 @@ namespace detail
bool window_manager::register_shortkey(core_window_t* wd, unsigned long key)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
{
auto object = root_runtime(wd->root);
@ -1241,7 +1248,7 @@ namespace detail
void window_manager::unregister_shortkey(core_window_t* wd, bool with_children)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd) == false) return;
auto root_rt = root_runtime(wd->root);
@ -1261,7 +1268,7 @@ namespace detail
std::vector<std::pair<core_window_t*, unsigned long>> result;
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (impl_->wd_register.available(wd))
{
auto root_rt = root_runtime(wd->root);
@ -1290,7 +1297,7 @@ namespace detail
if(native_window)
{
//Thread-Safe Required!
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
auto object = root_runtime(native_window);
if(object)
return reinterpret_cast<core_window_t*>(object->shortkeys.find(key));
@ -1302,7 +1309,7 @@ namespace detail
{
if (fn)
{
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
if (!available(wd))
return;
@ -1312,21 +1319,21 @@ namespace detail
void window_manager::call_safe_place(unsigned thread_id)
{
std::lock_guard<decltype(mutex_)> lock(mutex_);
std::lock_guard<mutex_type> lock(mutex_);
for (auto i = impl_->safe_place.begin(); i != impl_->safe_place.end();)
auto& safe_place = impl_->safe_place.table();
for (auto i = safe_place.begin(); i != safe_place.end();)
{
if (i->first->thread_id == thread_id)
{
for (auto & fn : i->second)
fn();
i = impl_->safe_place.erase(i);
i = safe_place.erase(i);
}
else
++i;
}
}
bool check_tree(basic_window* wd, basic_window* const cond)

2
source/gui/dragger.cpp
View File

@ -159,7 +159,7 @@ namespace nana
}
});
triggers_.push_back(tg);
triggers_.emplace_back(tg);
}
private:
static void _m_check_restrict_area(nana::point & pos, const nana::size & size, const nana::rectangle& restr_area)

259
source/gui/element.cpp
View File

@ -15,7 +15,6 @@
#include <nana/gui/detail/element_store.hpp>
#include <nana/paint/image.hpp>
#include <map>
#include <string>
#if defined(STD_THREAD_NOT_SUPPORTED)
#include <nana/std_mutex.hpp>
@ -599,7 +598,6 @@ namespace nana
{
using element_type = ElementInterface;
using factory_interface = pat::cloneable<element::detail::factory_abstract>;
public:
~element_object()
{
@ -1156,46 +1154,48 @@ namespace nana
}
};
struct bground::implementation
{
draw_method * method{ nullptr };
bool vert{ false };
rectangle valid_area;
std::vector<element_state> states;
std::map<element_state, element_state> join;
bool stretch_all{ true };
unsigned left{ 0 }, top{ 0 }, right{ 0 }, bottom{ 0 };
};
bground::bground()
: method_(nullptr),
vertical_(false),
stretch_all_(true),
left_(0), top_(0), right_(0), bottom_(0)
: impl_{ new implementation }
{
reset_states();
}
bground::bground(const bground& rhs)
: method_(rhs.method_ ? rhs.method_->clone() : nullptr),
vertical_(rhs.vertical_),
valid_area_(rhs.valid_area_),
states_(rhs.states_),
join_(rhs.join_),
stretch_all_(rhs.stretch_all_),
left_(rhs.left_), top_(rhs.top_), right_(rhs.right_), bottom_(rhs.bottom_)
: impl_{ new implementation }
{
if (impl_->method)
impl_->method = impl_->method->clone();
}
bground::~bground()
{
delete method_;
delete impl_->method;
}
bground& bground::operator=(const bground& rhs)
{
if (this != &rhs)
{
delete method_;
method_ = (rhs.method_ ? rhs.method_->clone() : nullptr);
vertical_ = rhs.vertical_;
valid_area_ = rhs.valid_area_;
states_ = rhs.states_;
join_ = rhs.join_;
stretch_all_ = rhs.stretch_all_;
left_ = rhs.left_;
top_ = rhs.top_;
right_ = rhs.right_;
bottom_ = rhs.bottom_;
delete impl_->method;
impl_.reset(new implementation(*rhs.impl_));
if (impl_->method)
impl_->method = impl_->method->clone();
}
return *this;
}
@ -1203,106 +1203,110 @@ namespace nana
//Set a picture for the background
bground& bground::image(const paint::image& img, bool vertical, const nana::rectangle& valid_area)
{
delete method_;
method_ = new draw_image(img);
vertical_ = vertical;
delete impl_->method;
impl_->method = new draw_image(img);
impl_->vert = vertical;
if (valid_area.width && valid_area.height)
valid_area_ = valid_area;
impl_->valid_area = valid_area;
else
valid_area_ = nana::rectangle(img.size());
impl_->valid_area = nana::rectangle(img.size());
return *this;
}
bground& bground::image(const paint::graphics& graph, bool vertical, const nana::rectangle& valid_area)
{
delete method_;
method_ = new draw_graph(graph);
vertical_ = vertical;
delete impl_->method;
impl_->method = new draw_graph(graph);
impl_->vert = vertical;
if (valid_area.width && valid_area.height)
valid_area_ = valid_area;
impl_->valid_area = valid_area;
else
valid_area_ = nana::rectangle(graph.size());
impl_->valid_area = nana::rectangle(graph.size());
return *this;
}
//Set the state sequence of the background picture.
void bground::states(const std::vector<element_state> & s)
{
states_ = s;
impl_->states = s;
}
void bground::states(std::vector<element_state> && s)
{
states_ = std::move(s);
impl_->states = std::move(s);
}
void bground::reset_states()
{
states_.clear();
states_.push_back(element_state::normal);
states_.push_back(element_state::hovered);
states_.push_back(element_state::focus_normal);
states_.push_back(element_state::focus_hovered);
states_.push_back(element_state::pressed);
states_.push_back(element_state::disabled);
join_.clear();
auto & st = impl_->states;
st.clear();
st.push_back(element_state::normal);
st.push_back(element_state::hovered);
st.push_back(element_state::focus_normal);
st.push_back(element_state::focus_hovered);
st.push_back(element_state::pressed);
st.push_back(element_state::disabled);
impl_->join.clear();
}
void bground::join(element_state target, element_state joiner)
{
join_[joiner] = target;
impl_->join[joiner] = target;
}
void bground::stretch_parts(unsigned left, unsigned top, unsigned right, unsigned bottom)
{
left_ = left;
top_ = top;
right_ = right;
bottom_ = bottom;
impl_->left = left;
impl_->right = right;
impl_->top = top;
impl_->bottom = bottom;
stretch_all_ = !(left || right || top || bottom);
impl_->stretch_all = !(left || right || top || bottom);
}
//Implement the methods of bground_interface.
bool bground::draw(graph_reference dst, const ::nana::color&, const ::nana::color&, const nana::rectangle& to_r, element_state state)
{
if (nullptr == method_)
const auto method = impl_->method;
if (nullptr == method)
return false;
auto mi = join_.find(state);
if (mi != join_.end())
auto mi = impl_->join.find(state);
if (mi != impl_->join.end())
state = mi->second;
std::size_t pos = 0;
for (; pos < states_.size(); ++pos)
for (; pos < impl_->states.size(); ++pos)
{
if (states_[pos] == state)
if (impl_->states[pos] == state)
break;
}
if (pos == states_.size())
if (pos == impl_->states.size())
return false;
nana::rectangle from_r = valid_area_;
if (vertical_)
nana::rectangle from_r = impl_->valid_area;
if (impl_->vert)
{
from_r.height /= static_cast<unsigned>(states_.size());
from_r.height /= static_cast<unsigned>(impl_->states.size());
from_r.y += static_cast<int>(from_r.height * pos);
}
else
{
from_r.width /= static_cast<unsigned>(states_.size());
from_r.width /= static_cast<unsigned>(impl_->states.size());
from_r.x += static_cast<int>(from_r.width * pos);
}
if (stretch_all_)
if (impl_->stretch_all)
{
if (from_r.width == to_r.width && from_r.height == to_r.height)
method_->paste(from_r, dst, to_r.position());
method->paste(from_r, dst, to_r.position());
else
method_->stretch(from_r, dst, to_r);
method->stretch(from_r, dst, to_r);
return true;
}
@ -1311,118 +1315,123 @@ namespace nana
auto perf_from_r = from_r;
auto perf_to_r = to_r;
if (left_ + right_ < to_r.width)
const auto left = impl_->left;
const auto right = impl_->right;
const auto top = impl_->top;
const auto bottom = impl_->bottom;
if (left + right < to_r.width)
{
nana::rectangle src_r = from_r;
src_r.y += static_cast<int>(top_);
src_r.height -= top_ + bottom_;
src_r.y += static_cast<int>(top);
src_r.height -= top + bottom;
nana::rectangle dst_r = to_r;
dst_r.y += static_cast<int>(top_);
dst_r.height -= top_ + bottom_;
dst_r.y += static_cast<int>(top);
dst_r.height -= top + bottom;
if (left_)
if (left)
{
src_r.width = left_;
dst_r.width = left_;
src_r.width = left;
dst_r.width = left;
method_->stretch(src_r, dst, dst_r);
method->stretch(src_r, dst, dst_r);
perf_from_r.x += static_cast<int>(left_);
perf_from_r.width -= left_;
perf_to_r.x += static_cast<int>(left_);
perf_to_r.width -= left_;
perf_from_r.x += static_cast<int>(left);
perf_from_r.width -= left;
perf_to_r.x += static_cast<int>(left);
perf_to_r.width -= left;
}
if (right_)
if (right)
{
src_r.x += (static_cast<int>(from_r.width) - static_cast<int>(right_));
src_r.width = right_;
src_r.x += (static_cast<int>(from_r.width) - static_cast<int>(right));
src_r.width = right;
dst_r.x += (static_cast<int>(to_r.width) - static_cast<int>(right_));
dst_r.width = right_;
dst_r.x += (static_cast<int>(to_r.width) - static_cast<int>(right));
dst_r.width = right;
method_->stretch(src_r, dst, dst_r);
method->stretch(src_r, dst, dst_r);
perf_from_r.width -= right_;
perf_to_r.width -= right_;
perf_from_r.width -= right;
perf_to_r.width -= right;
}
}
if (top_ + bottom_ < to_r.height)
if (top + bottom < to_r.height)
{
nana::rectangle src_r = from_r;
src_r.x += static_cast<int>(left_);
src_r.width -= left_ + right_;
src_r.x += static_cast<int>(left);
src_r.width -= left + right;
nana::rectangle dst_r = to_r;
dst_r.x += static_cast<int>(left_);
dst_r.width -= left_ + right_;
dst_r.x += static_cast<int>(left);
dst_r.width -= left + right;
if (top_)
if (top)
{
src_r.height = top_;
dst_r.height = top_;
src_r.height = top;
dst_r.height = top;
method_->stretch(src_r, dst, dst_r);
method->stretch(src_r, dst, dst_r);
perf_from_r.y += static_cast<int>(top_);
perf_to_r.y += static_cast<int>(top_);
perf_from_r.y += static_cast<int>(top);
perf_to_r.y += static_cast<int>(top);
}
if (bottom_)
if (bottom)
{
src_r.y += static_cast<int>(from_r.height - bottom_);
src_r.height = bottom_;
src_r.y += static_cast<int>(from_r.height - bottom);
src_r.height = bottom;
dst_r.y += static_cast<int>(to_r.height - bottom_);
dst_r.height = bottom_;
dst_r.y += static_cast<int>(to_r.height - bottom);
dst_r.height = bottom;
method_->stretch(src_r, dst, dst_r);
method->stretch(src_r, dst, dst_r);
}
perf_from_r.height -= (top_ + bottom_);
perf_to_r.height -= (top_ + bottom_);
perf_from_r.height -= (top + bottom);
perf_to_r.height -= (top + bottom);
}
if (left_)
if (left)
{
nana::rectangle src_r = from_r;
src_r.width = left_;
if (top_)
src_r.width = left;
if (top)
{
src_r.height = top_;
method_->paste(src_r, dst, to_r.position());
src_r.height = top;
method->paste(src_r, dst, to_r.position());
}
if (bottom_)
if (bottom)
{
src_r.y += static_cast<int>(from_r.height) - static_cast<int>(bottom_);
src_r.height = bottom_;
method_->paste(src_r, dst, nana::point(to_r.x, to_r.y + static_cast<int>(to_r.height - bottom_)));
src_r.y += static_cast<int>(from_r.height) - static_cast<int>(bottom);
src_r.height = bottom;
method->paste(src_r, dst, nana::point(to_r.x, to_r.y + static_cast<int>(to_r.height - bottom)));
}
}
if (right_)
if (right)
{
const int to_x = to_r.x + int(to_r.width - right_);
const int to_x = to_r.x + int(to_r.width - right);
nana::rectangle src_r = from_r;
src_r.x += static_cast<int>(src_r.width) - static_cast<int>(right_);
src_r.width = right_;
if (top_)
src_r.x += static_cast<int>(src_r.width) - static_cast<int>(right);
src_r.width = right;
if (top)
{
src_r.height = top_;
method_->paste(src_r, dst, nana::point(to_x, to_r.y));
src_r.height = top;
method->paste(src_r, dst, nana::point(to_x, to_r.y));
}
if (bottom_)
if (bottom)
{
src_r.y += (static_cast<int>(from_r.height) - static_cast<int>(bottom_));
src_r.height = bottom_;
method_->paste(src_r, dst, nana::point(to_x, to_r.y + int(to_r.height - bottom_)));
src_r.y += (static_cast<int>(from_r.height) - static_cast<int>(bottom));
src_r.height = bottom;
method->paste(src_r, dst, nana::point(to_x, to_r.y + int(to_r.height - bottom)));
}
}
method_->stretch(perf_from_r, dst, perf_to_r);
method->stretch(perf_from_r, dst, perf_to_r);
return true;
}
//end class bground

7
source/gui/place.cpp
View File

@ -661,13 +661,14 @@ namespace nana
//This is a splitter, it only checks when it is being displayed
if (dsp)
{
//Left field of splitterbar
auto left = this->previous();
if (left && !left->display)
left->set_display(true);
auto right = div_next;
if (right && !right->display)
right->set_display(true);
//Right field of splitterbar
if (div_next && !div_next->display)
div_next->set_display(true);
}
}
}

6
source/gui/programming_interface.cpp
View File

@ -104,7 +104,7 @@ namespace API
{
if (iwd->effect.edge_nimbus == effects::edge_nimbus::none)
{
cont.push_back(basic_window::edge_nimbus_action{ iwd, false});
cont.emplace_back(basic_window::edge_nimbus_action{ iwd, false});
}
iwd->effect.edge_nimbus = static_cast<effects::edge_nimbus>(static_cast<unsigned>(en) | static_cast<unsigned>(iwd->effect.edge_nimbus));
}
@ -365,7 +365,7 @@ namespace API
}
if (!exists)
roots.push_back(root);
roots.emplace_back(root);
}
}
@ -401,7 +401,7 @@ namespace API
}
if (!exists)
roots.push_back(root);
roots.emplace_back(root);
}
}

3
source/gui/timer.cpp
View File

@ -47,8 +47,7 @@ namespace nana
friend class timer_core;
timer_driver()
{}
timer_driver() = default;
public:
static timer_driver& instance()
{

2
source/gui/tooltip.cpp
View File

@ -60,7 +60,7 @@ namespace nana
typedef widget_object<category::root_tag, drawer> base_type;
public:
tip_form()
: base_type(nana::rectangle(), appear::bald<appear::floating>()),
: base_type(nullptr, false, rectangle(), appear::bald<appear::floating>()),
duration_(0)
{
API::take_active(this->handle(), false, nullptr);

3
source/gui/widgets/checkbox.cpp
View File

@ -285,8 +285,7 @@ namespace nana{ namespace drawerbase
}
});
ui_container_.push_back(el);
ui_container_.emplace_back(el);
}
std::size_t radio_group::checked() const

4
source/gui/widgets/combox.cpp
View File

@ -174,7 +174,7 @@ namespace nana
editor_->show_caret(enb);
if (!enb)
{
editor_->ext_renderer().background = [this](graph_reference graph, const ::nana::rectangle&, const ::nana::color&)
editor_->customized_renderers().background = [this](graph_reference graph, const ::nana::rectangle&, const ::nana::color&)
{
auto clr_from = colors::button_face_shadow_start;
auto clr_to = colors::button_face_shadow_end;
@ -190,7 +190,7 @@ namespace nana
};
}
else
editor_->ext_renderer().background = nullptr;
editor_->customized_renderers().background = nullptr;
editor_->enable_background(enb);
editor_->enable_background_counterpart(!enb);

32
source/gui/widgets/float_listbox.cpp
View File

@ -13,6 +13,8 @@
#include <nana/gui/widgets/float_listbox.hpp>
#include <nana/gui/widgets/scroll.hpp>
#include <nana/gui/layout_utility.hpp>
namespace nana
{
namespace drawerbase{
@ -66,35 +68,7 @@ namespace nana
unsigned vpix = (r.height - 4);
if(item->image())
{
nana::size imgsz = item->image().size();
if(imgsz.width > image_pixels_)
{
unsigned new_h = image_pixels_ * imgsz.height / imgsz.width;
if(new_h > vpix)
{
imgsz.width = vpix * imgsz.width / imgsz.height;
imgsz.height = vpix;
}
else
{
imgsz.width = image_pixels_;
imgsz.height = new_h;
}
}
else if(imgsz.height > vpix)
{
unsigned new_w = vpix * imgsz.width / imgsz.height;
if(new_w > image_pixels_)
{
imgsz.height = image_pixels_ * imgsz.height / imgsz.width;
imgsz.width = image_pixels_;
}
else
{
imgsz.height = vpix;
imgsz.width = new_w;
}
}
auto imgsz = nana::fit_zoom(item->image().size(), {image_pixels_, vpix});
nana::point to_pos(x, r.y + 2);
to_pos.x += (image_pixels_ - imgsz.width) / 2;

22
source/gui/widgets/label.cpp
View File

@ -206,15 +206,13 @@ namespace nana
{
if(fbp->target.size() || fbp->url.size())
{
traceable tr;
traceable_.emplace_back();
auto & tr = traceable_.back();
tr.r.x = x;
tr.r.y = y;
tr.r.width = sz.width;
tr.r.height = sz.height;
tr.r.dimension(sz);
tr.target = fbp->target;
tr.url = fbp->url;
traceable_.push_back(tr);
}
}
@ -331,7 +329,7 @@ namespace nana
px.pixels = def_line_pixels;
px.x_base = 0;
rs.pixels.push_back(px);
rs.pixels.emplace_back(px);
return 0;
}
@ -374,7 +372,7 @@ namespace nana
if(max_ascent < as) max_ascent = as;
if(max_descent < ds) max_descent = ds;
if(max_px < sz.height) max_px = sz.height;
line_values.push_back(i);
line_values.emplace_back(i);
}
else
{
@ -393,13 +391,13 @@ namespace nana
px.baseline = max_ascent;
px.values.swap(line_values);
rs.pixels.push_back(px);
rs.pixels.emplace_back(px);
w = sz.width;
max_px = sz.height;
max_ascent = as;
max_descent = ds;
line_values.push_back(i);
line_values.emplace_back(i);
}
else
{
@ -409,9 +407,9 @@ namespace nana
px.pixels = sz.height;
px.baseline = as;
px.values.push_back(i);
px.values.emplace_back(i);
rs.pixels.push_back(px);
rs.pixels.emplace_back(px);
max_px = 0;
max_ascent = max_descent = 0;
}
@ -432,7 +430,7 @@ namespace nana
px.pixels = max_px;
px.baseline = max_ascent;
px.values.swap(line_values);
rs.pixels.push_back(px);
rs.pixels.emplace_back(px);
}
return total_w;
}

52
source/gui/widgets/listbox.cpp
View File

@ -32,6 +32,7 @@
#include <nana/system/dataexch.hpp>
#include <cassert>
#include <mutex>
#include <map>
namespace nana
{
@ -972,6 +973,7 @@ namespace nana
if (catobj.model_ptr)
{
throw_if_immutable_model(catobj.model_ptr.get());
auto container = catobj.model_ptr->container();
std::size_t item_index;
//
@ -1249,28 +1251,17 @@ namespace nana
return n;
}
std::vector<cell>& get_cells(category_t * cat, std::size_t pos) const
std::vector<cell> get_cells(category_t * cat, std::size_t pos) const
{
if (!cat)
throw std::out_of_range("nana::listbox: category is null");
if (cat->model_ptr)
throw std::runtime_error("nana::listbox disallow to get item cells, because there are model cells");
return cat->model_ptr->container()->to_cells(pos);
return *(cat->items.at(pos).cells);
}
std::vector<cell> get_model_cells(category_t* cat, std::size_t pos) const
{
if (!cat)
throw std::out_of_range("nana::listbox: category is null");
if (!(cat->model_ptr))
throw std::runtime_error("nana::listbox: the category hasn't a model");
return cat->model_ptr->container()->to_cells(pos);
}
void text(category_t* cat, size_type pos, size_type col, cell&& cl, size_type columns)
{
if ((col < columns) && (pos < cat->items.size()))
@ -2868,8 +2859,8 @@ namespace nana
return *this;
}
iresolver::iresolver(const std::vector<cell>& cl)
: cells_(cl)
iresolver::iresolver(std::vector<cell> cl)
: cells_(std::move(cl))
{}
iresolver& iresolver::operator>>(cell& cl)
@ -4565,14 +4556,6 @@ namespace nana
std::string item_proxy::text(size_type col) const
{
if (cat_->model_ptr)
{
auto cells = cat_->model_ptr->container()->to_cells(pos_.item);
if (col < cells.size())
return cells[col].text;
return{};
}
return ess_->lister.get_cells(cat_, pos_.item).at(col).text;
}
@ -4692,7 +4675,7 @@ namespace nana
return pos_;
}
auto item_proxy::_m_cells() const -> std::vector<cell>&
auto item_proxy::_m_cells() const -> std::vector<cell>
{
return ess_->lister.get_cells(cat_, pos_.item);
}
@ -5027,9 +5010,24 @@ namespace nana
internal_scope_guard lock;
cat_->sorted.push_back(cat_->items.size());
cells.resize(columns());
cat_->items.emplace_back(std::move(cells));
if (cat_->model_ptr)
{
es_lister::throw_if_immutable_model(cat_->model_ptr.get());
auto container = cat_->model_ptr->container();
auto item_index = container->size();
cat_->items.emplace_back();
container->emplace_back();
container->assign(item_index, cells);
}
else
{
cat_->sorted.push_back(cat_->items.size());
cells.resize(columns());
cat_->items.emplace_back(std::move(cells));
}
assign_colors_for_last(ess_, cat_);
}

1
source/gui/widgets/menu.cpp
View File

@ -18,6 +18,7 @@
#include <nana/gui/wvl.hpp>
#include <nana/paint/text_renderer.hpp>
#include <cctype> //introduces tolower
#include <map>
namespace nana
{

702
source/gui/widgets/skeletons/text_editor.cpp
View File

File diff suppressed because it is too large Load Diff

2
source/gui/widgets/slider.cpp
View File

@ -1,5 +1,6 @@
#include <nana/gui/widgets/slider.hpp>
#include <nana/paint/pixel_buffer.hpp>
#include <cstring> //memcpy
namespace nana
@ -645,7 +646,6 @@ namespace nana
{
adorn.bound.x = static_cast<int>(attr_.adorn_pos + attr_.slider.border_weight + bar.area.y);
adorn.bound.y = static_cast<int>(graph.height()) - static_cast<int>(attr_.slider.border_weight + bar.area.y);
//adorn.bound.x =
}
else
{

3
source/gui/widgets/textbox.cpp
View File

@ -65,7 +65,6 @@ namespace drawerbase {
{
auto wd = wdg.handle();
widget_ = &wdg;
evt_agent_.reset(new event_agent(static_cast<::nana::textbox&>(wdg), editor_->text_position()));
auto scheme = API::dev::get_scheme(wdg);
@ -73,6 +72,8 @@ namespace drawerbase {
editor_->textbase().set_event_agent(evt_agent_.get());
editor_->set_event(evt_agent_.get());
evt_agent_.reset(new event_agent(static_cast<::nana::textbox&>(wdg), editor_->text_position()));
_m_text_area(graph.width(), graph.height());
API::tabstop(wd);

1
source/gui/widgets/treebox.cpp
View File

@ -15,6 +15,7 @@
#include <nana/gui/layout_utility.hpp>
#include <nana/system/platform.hpp>
#include <stdexcept>
#include <map>
namespace nana
{

20
source/internationalization.cpp
View File

@ -13,7 +13,7 @@
#include <nana/push_ignore_diagnostic>
#include <nana/internationalization.hpp>
#include <nana/gui/widgets/widget.hpp>
#include <nana/gui/programming_interface.hpp>
#include <unordered_map>
#include <fstream>
@ -486,32 +486,22 @@ namespace nana
void i18n_eval::_m_add_args(std::string& str)
{
args_.emplace_back(new arg_string(nana::charset(str)));
args_.emplace_back(new arg_string(str));
}
void i18n_eval::_m_add_args(const std::string& str)
{
args_.emplace_back(new arg_string(nana::charset(str)));
args_.emplace_back(new arg_string(str));
}
void i18n_eval::_m_add_args(std::string&& str)
{
args_.emplace_back(new arg_string(nana::charset(std::move(str))));
}
void i18n_eval::_m_add_args(std::wstring& str)
{
args_.emplace_back(new arg_string(nana::charset(str)));
args_.emplace_back(new arg_string(std::move(str)));
}
void i18n_eval::_m_add_args(const std::wstring& str)
{
args_.emplace_back(new arg_string(nana::charset(str)));
}
void i18n_eval::_m_add_args(std::wstring&& str)
{
args_.emplace_back(new arg_string(nana::charset(std::move(str))));
args_.emplace_back(new arg_string(to_utf8(str)));
}
//end class i18n_eval
}

388
source/paint/graphics.cpp
View File

@ -194,76 +194,106 @@ namespace paint
//end class font
//class graphics
struct graphics::implementation
{
std::shared_ptr<::nana::detail::drawable_impl_type> platform_drawable;
font font_shadow;
drawable_type handle{ nullptr };
::nana::size size;
pixel_buffer pxbuf;
bool changed{ false };
};
graphics::graphics()
:handle_(nullptr), changed_(false)
: impl_(new implementation)
{}
graphics::graphics(const nana::size& sz)
:handle_(nullptr), changed_(true)
: impl_(new implementation)
{
make(sz);
}
graphics::graphics(const graphics& rhs)
:dwptr_(rhs.dwptr_), handle_(rhs.handle_), size_(rhs.size_), changed_(true)
: impl_(new implementation(*rhs.impl_))
{}
graphics& graphics::operator=(const graphics& rhs)
{
if(this != &rhs)
{
size_ = rhs.size_;
dwptr_ = rhs.dwptr_;
handle_ = rhs.handle_;
if(changed_ == false) changed_ = true;
*impl_ = *rhs.impl_;
impl_->changed = true;
}
return *this;
}
bool graphics::changed() const
graphics::graphics(graphics&& other)
: impl_(std::move(other.impl_))
{
return this->changed_;
}
bool graphics::empty() const { return (handle_ == nullptr); }
graphics& graphics::operator=(graphics&& other)
{
if (this != &other)
impl_ = std::move(other.impl_);
return *this;
}
graphics::~graphics()
{
//For instance of unique_ptr pimpl
}
bool graphics::changed() const
{
return impl_->changed;
}
bool graphics::empty() const
{
return (!impl_->handle);
}
graphics::operator const void *() const
{
return handle_;
return impl_->handle;
}
drawable_type graphics::handle() const
{
return handle_;
return impl_->handle;
}
const void* graphics::pixmap() const
{
//The reinterpret_cast is used for same platform. Under Windows, the type
//of pixmap can be conversed into void* directly, but under X11, the type is not a pointer.
return (handle_? reinterpret_cast<void*>(handle_->pixmap) : nullptr);
return (impl_->handle ? reinterpret_cast<void*>(impl_->handle->pixmap) : nullptr);
}
const void* graphics::context() const
{
return (handle_? handle_->context : nullptr);
return (impl_->handle ? impl_->handle->context : nullptr);
}
void graphics::make(const ::nana::size& sz)
{
if(handle_ == nullptr || size_ != sz)
if(impl_->handle == nullptr || impl_->size != sz)
{
//The object will be delete while dwptr_ is performing a release.
drawable_type dw = new nana::detail::drawable_impl_type;
//Reuse the old font
if(dwptr_)
if(impl_->platform_drawable)
{
drawable_type reuse = dwptr_.get();
drawable_type reuse = impl_->platform_drawable.get();
dw->font = reuse->font;
dw->string.tab_length = reuse->string.tab_length;
}
else
dw->font = font_shadow_.impl_->font_ptr;
dw->font = impl_->font_shadow.impl_->font_ptr;
#if defined(NANA_WINDOWS)
HDC hdc = ::GetDC(0);
@ -319,21 +349,22 @@ namespace paint
#else
dw->update_text_color();
#endif
dwptr_.reset(dw, detail::drawable_deleter{});
handle_ = dw;
size_ = sz;
impl_->platform_drawable.reset(dw, detail::drawable_deleter{});
impl_->handle = dw;
impl_->size = sz;
handle_->string.tab_pixels = detail::raw_text_extent_size(handle_, L"\t", 1).width;
handle_->string.whitespace_pixels = detail::raw_text_extent_size(handle_, L" ", 1).width;
impl_->handle->string.tab_pixels = detail::raw_text_extent_size(impl_->handle, L"\t", 1).width;
impl_->handle->string.whitespace_pixels = detail::raw_text_extent_size(impl_->handle, L" ", 1).width;
}
}
if(changed_ == false) changed_ = true;
if(impl_->changed == false)
impl_->changed = true;
}
void graphics::resize(const ::nana::size& sz)
{
graphics duplicate(*this);
graphics duplicate(std::move(*this));
make(sz);
bitblt(0, 0, duplicate);
}
@ -342,16 +373,18 @@ namespace paint
{
//Keep the font as a shadow, even if the graphics is empty. Setting the font is futile when the size
//of a widget is zero.
font_shadow_ = f;
if(handle_ && (false == f.empty()))
impl_->font_shadow = f;
if(impl_->handle && (false == f.empty()))
{
handle_->font = f.impl_->font_ptr;
impl_->handle->font = f.impl_->font_ptr;
#if defined(NANA_WINDOWS)
::SelectObject(handle_->context, reinterpret_cast<HFONT>(f.impl_->font_ptr->handle));
::SelectObject(impl_->handle->context, reinterpret_cast<HFONT>(f.impl_->font_ptr->handle));
#endif
handle_->string.tab_pixels = detail::raw_text_extent_size(handle_, L"\t", 1).width;
handle_->string.whitespace_pixels = detail::raw_text_extent_size(handle_, L" ", 1).width;
if(changed_ == false) changed_ = true;
impl_->handle->string.tab_pixels = detail::raw_text_extent_size(impl_->handle, L"\t", 1).width;
impl_->handle->string.whitespace_pixels = detail::raw_text_extent_size(impl_->handle, L" ", 1).width;
if (impl_->changed == false)
impl_->changed = true;
}
}
@ -359,7 +392,7 @@ namespace paint
{
//The font may be set when the graphics is still empty.
//it should return the shadow font when the graphics is empty.
return (handle_ ? font(handle_) : font_shadow_);
return (impl_->handle ? font(impl_->handle) : impl_->font_shadow);
}
::nana::size graphics::text_extent_size(const ::std::string& text) const
@ -385,26 +418,26 @@ namespace paint
nana::size graphics::text_extent_size(const wchar_t* str, std::size_t len) const
{
return detail::text_extent_size(handle_, str, len);
return detail::text_extent_size(impl_->handle, str, len);
}
nana::size graphics::text_extent_size(const std::wstring& str, std::size_t len) const
{
return detail::text_extent_size(handle_, str.c_str(), len);
return detail::text_extent_size(impl_->handle, str.c_str(), len);
}
nana::size graphics::glyph_extent_size(const wchar_t * str, std::size_t len, std::size_t begin, std::size_t end) const
{
if(len < end) end = len;
if (nullptr == handle_ || nullptr == str || 0 == len || begin >= end) return{};
if (nullptr == impl_->handle || nullptr == str || 0 == len || begin >= end) return{};
nana::size sz;
#if defined(NANA_WINDOWS)
int * dx = new int[len];
SIZE extents;
::GetTextExtentExPoint(handle_->context, str, static_cast<int>(len), 0, 0, dx, &extents);
::GetTextExtentExPoint(impl_->handle->context, str, static_cast<int>(len), 0, 0, dx, &extents);
sz.width = dx[end - 1] - (begin ? dx[begin - 1] : 0);
unsigned tab_pixels = handle_->string.tab_length * handle_->string.whitespace_pixels;
unsigned tab_pixels = impl_->handle->string.tab_length * impl_->handle->string.whitespace_pixels;
const wchar_t * pend = str + end;
for(const wchar_t * p = str + begin; p != pend; ++p)
{
@ -426,14 +459,14 @@ namespace paint
bool graphics::glyph_pixels(const wchar_t * str, std::size_t len, unsigned* pxbuf) const
{
if(nullptr == handle_ || nullptr == handle_->context || nullptr == str || nullptr == pxbuf) return false;
if(nullptr == impl_->handle || nullptr == impl_->handle->context || nullptr == str || nullptr == pxbuf) return false;
if(len == 0) return true;
unsigned tab_pixels = handle_->string.tab_length * handle_->string.whitespace_pixels;
unsigned tab_pixels = impl_->handle->string.tab_length * impl_->handle->string.whitespace_pixels;
#if defined(NANA_WINDOWS)
int * dx = new int[len];
SIZE extents;
::GetTextExtentExPoint(handle_->context, str, static_cast<int>(len), 0, 0, dx, &extents);
::GetTextExtentExPoint(impl_->handle->context, str, static_cast<int>(len), 0, 0, dx, &extents);
pxbuf[0] = (str[0] == '\t' ? tab_pixels : dx[0]);
@ -445,7 +478,7 @@ namespace paint
#elif defined(NANA_X11) && defined(NANA_USE_XFT)
Display * disp = nana::detail::platform_spec::instance().open_display();
XftFont * xft = handle_->font->handle;
XftFont * xft = impl_->handle->font->handle;
XGlyphInfo extents;
for(std::size_t i = 0; i < len; ++i)
@ -466,7 +499,7 @@ namespace paint
nana::size graphics::bidi_extent_size(const std::wstring& str) const
{
nana::size sz;
if(handle_ && handle_->context && str.size())
if(impl_->handle && impl_->handle->context && str.size())
{
std::vector<unicode_bidi::entity> reordered;
unicode_bidi bidi;
@ -489,25 +522,25 @@ namespace paint
bool graphics::text_metrics(unsigned & ascent, unsigned& descent, unsigned& internal_leading) const
{
if(handle_)
if(impl_->handle)
{
#if defined(NANA_WINDOWS)
::TEXTMETRIC tm;
::GetTextMetrics(handle_->context, &tm);
::GetTextMetrics(impl_->handle->context, &tm);
ascent = static_cast<unsigned>(tm.tmAscent);
descent = static_cast<unsigned>(tm.tmDescent);
internal_leading = static_cast<unsigned>(tm.tmInternalLeading);
return true;
#elif defined(NANA_X11)
if(handle_->font)
if(impl_->handle->font)
{
#if defined(NANA_USE_XFT)
XftFont * fs = reinterpret_cast<XftFont*>(handle_->font->handle);
XftFont * fs = reinterpret_cast<XftFont*>(impl_->handle->font->handle);
ascent = fs->ascent;
descent = fs->descent;
internal_leading = 0;
#else
XFontSet fs = reinterpret_cast<XFontSet>(handle_->font->handle);
XFontSet fs = reinterpret_cast<XFontSet>(impl_->handle->font->handle);
XFontSetExtents * ext = ::XExtentsOfFontSet(fs);
XFontStruct ** fontstructs;
char ** font_names;
@ -532,13 +565,13 @@ namespace paint
void graphics::line_begin(int x, int y)
{
if(!handle_) return;
if(!impl_->handle) return;
#if defined(NANA_WINDOWS)
::MoveToEx(handle_->context, x, y, 0);
::MoveToEx(impl_->handle->context, x, y, 0);
#elif defined(NANA_X11)
handle_->line_begin_pos.x = x;
handle_->line_begin_pos.y = y;
impl_->handle->line_begin_pos.x = x;
impl_->handle->line_begin_pos.y = y;
#endif
}
@ -552,94 +585,94 @@ namespace paint
void graphics::bitblt(const nana::rectangle& r_dst, native_window_type src)
{
if(handle_)
if(impl_->handle)
{
#if defined(NANA_WINDOWS)
HDC dc = ::GetDC(reinterpret_cast<HWND>(src));
::BitBlt(handle_->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, dc, 0, 0, SRCCOPY);
::BitBlt(impl_->handle->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, dc, 0, 0, SRCCOPY);
::ReleaseDC(reinterpret_cast<HWND>(src), dc);
#elif defined(NANA_X11)
::XCopyArea(nana::detail::platform_spec::instance().open_display(),
reinterpret_cast<Window>(src), handle_->pixmap, handle_->context,
reinterpret_cast<Window>(src), impl_->handle->pixmap, impl_->handle->context,
0, 0, r_dst.width, r_dst.height, r_dst.x, r_dst.y);
#endif
if(changed_ == false) changed_ = true;
if(impl_->changed == false) impl_->changed = true;
}
}
void graphics::bitblt(const nana::rectangle& r_dst, native_window_type src, const nana::point& p_src)
{
if(handle_)
if(impl_->handle)
{
#if defined(NANA_WINDOWS)
HDC dc = ::GetDC(reinterpret_cast<HWND>(src));
::BitBlt(handle_->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, dc, p_src.x, p_src.y, SRCCOPY);
::BitBlt(impl_->handle->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, dc, p_src.x, p_src.y, SRCCOPY);
::ReleaseDC(reinterpret_cast<HWND>(src), dc);
#elif defined(NANA_X11)
::XCopyArea(nana::detail::platform_spec::instance().open_display(),
reinterpret_cast<Window>(src), handle_->pixmap, handle_->context,
reinterpret_cast<Window>(src), impl_->handle->pixmap, impl_->handle->context,
p_src.x, p_src.y, r_dst.width, r_dst.height, r_dst.x, r_dst.y);
#endif
if(changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
}
void graphics::bitblt(const nana::rectangle& r_dst, const graphics& src)
{
if(handle_ && src.handle_)
if(impl_->handle && src.impl_->handle)
{
#if defined(NANA_WINDOWS)
::BitBlt(handle_->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, src.handle_->context, 0, 0, SRCCOPY);
::BitBlt(impl_->handle->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, src.impl_->handle->context, 0, 0, SRCCOPY);
#elif defined(NANA_X11)
::XCopyArea(nana::detail::platform_spec::instance().open_display(),
src.handle_->pixmap, handle_->pixmap, handle_->context,
src.impl_->handle->pixmap, impl_->handle->pixmap, impl_->handle->context,
0, 0, r_dst.width, r_dst.height, r_dst.x, r_dst.y);
#endif
if(changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
}
void graphics::bitblt(const nana::rectangle& r_dst, const graphics& src, const nana::point& p_src)
{
if(handle_ && src.handle_)
if(impl_->handle && src.impl_->handle)
{
#if defined(NANA_WINDOWS)
::BitBlt(handle_->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, src.handle_->context, p_src.x, p_src.y, SRCCOPY);
::BitBlt(impl_->handle->context, r_dst.x, r_dst.y, r_dst.width, r_dst.height, src.impl_->handle->context, p_src.x, p_src.y, SRCCOPY);
#elif defined(NANA_X11)
::XCopyArea(nana::detail::platform_spec::instance().open_display(),
src.handle_->pixmap, handle_->pixmap, handle_->context,
src.impl_->handle->pixmap, impl_->handle->pixmap, impl_->handle->context,
p_src.x, p_src.y, r_dst.width, r_dst.height, r_dst.x, r_dst.y);
#endif
if(changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
}
void graphics::blend(const nana::rectangle& s_r, graphics& dst, const nana::point& d_pos, double fade_rate) const
{
if(dst.handle_ && handle_ && (dst.handle_ != handle_))
if(dst.impl_->handle && impl_->handle && (dst.impl_->handle != impl_->handle))
{
pixel_buffer s_pixbuf;
s_pixbuf.attach(handle_, ::nana::rectangle{ size() });
s_pixbuf.attach(impl_->handle, ::nana::rectangle{ size() });
s_pixbuf.blend(s_r, dst.handle_, d_pos, fade_rate);
s_pixbuf.blend(s_r, dst.impl_->handle, d_pos, fade_rate);
if(dst.changed_ == false) dst.changed_ = true;
if(dst.impl_->changed == false) dst.impl_->changed = true;
}
}
void graphics::blur(const nana::rectangle& r, std::size_t radius)
{
if(handle_)
if(impl_->handle)
{
pixel_buffer pixbuf(handle_, 0, 0);
pixel_buffer pixbuf(impl_->handle, 0, 0);
pixbuf.blur(r, radius);
pixbuf.paste(handle_, point{});
pixbuf.paste(impl_->handle, point{});
}
}
void graphics::rgb_to_wb()
{
if(handle_)
if(impl_->handle)
{
//Create the color table for perfermance
float* tablebuf = new float[0x100 * 3];
@ -654,11 +687,11 @@ namespace paint
table_blue[i] = (i * 0.11f);
}
pixel_buffer pixbuf(handle_, 0, 0);
pixel_buffer pixbuf(impl_->handle, 0, 0);
auto pixels = pixbuf.raw_ptr(0);
const nana::size sz = paint::detail::drawable_size(handle_);
const nana::size sz = paint::detail::drawable_size(impl_->handle);
const int rest = sz.width % 4;
const int length_align4 = sz.width - rest;
@ -692,26 +725,26 @@ namespace paint
}
delete [] tablebuf;
pixbuf.paste(handle_, point{});
if(changed_ == false) changed_ = true;
pixbuf.paste(impl_->handle, point{});
if (impl_->changed == false) impl_->changed = true;
}
}
void graphics::paste(graphics& dst, int x, int y) const
{
if(handle_ && dst.handle_ && handle_ != dst.handle_)
if(impl_->handle && dst.impl_->handle && impl_->handle != dst.impl_->handle)
{
#if defined(NANA_WINDOWS)
::BitBlt(dst.handle_->context, x, y, size_.width, size_.height, handle_->context, 0, 0, SRCCOPY);
::BitBlt(dst.impl_->handle->context, x, y, impl_->size.width, impl_->size.height, impl_->handle->context, 0, 0, SRCCOPY);
#elif defined(NANA_X11)
Display* display = nana::detail::platform_spec::instance().open_display();
::XCopyArea(display,
handle_->pixmap, dst.handle_->pixmap, handle_->context,
0, 0, size_.width, size_.height, x, y);
impl_->handle->pixmap, dst.impl_->handle->pixmap, impl_->handle->context,
0, 0, impl_->size.width, impl_->size.height, x, y);
::XFlush(display);
#endif
dst.changed_ = true;
dst.impl_->changed = true;
}
}
@ -722,19 +755,19 @@ namespace paint
void graphics::paste(native_window_type dst, int dx, int dy, unsigned width, unsigned height, int sx, int sy) const
{
if(handle_)
if(impl_->handle)
{
#if defined(NANA_WINDOWS)
HDC dc = ::GetDC(reinterpret_cast<HWND>(dst));
if(dc)
{
::BitBlt(dc, dx, dy, width, height, handle_->context, sx, sy, SRCCOPY);
::BitBlt(dc, dx, dy, width, height, impl_->handle->context, sx, sy, SRCCOPY);
::ReleaseDC(reinterpret_cast<HWND>(dst), dc);
}
#elif defined(NANA_X11)
Display * display = nana::detail::platform_spec::instance().open_display();
::XCopyArea(display,
handle_->pixmap, reinterpret_cast<Window>(dst), handle_->context,
impl_->handle->pixmap, reinterpret_cast<Window>(dst), impl_->handle->context,
sx, sy, width, height, dx, dy);
::XMapWindow(display, reinterpret_cast<Window>(dst));
@ -745,15 +778,15 @@ namespace paint
void graphics::paste(drawable_type dst, int x, int y) const
{
if(handle_ && dst && handle_ != dst)
if(impl_->handle && dst && impl_->handle != dst)
{
#if defined (NANA_WINDOWS)
::BitBlt(dst->context, x, y, size_.width, size_.height, handle_->context, 0, 0, SRCCOPY);
::BitBlt(dst->context, x, y, impl_->size.width, impl_->size.height, impl_->handle->context, 0, 0, SRCCOPY);
#elif defined(NANA_X11)
Display * display = nana::detail::platform_spec::instance().open_display();
::XCopyArea(display,
handle_->pixmap, dst->pixmap, handle_->context,
0, 0, size_.width, size_.height, x, y);
impl_->handle->pixmap, dst->pixmap, impl_->handle->context,
0, 0, impl_->size.width, impl_->size.height, x, y);
::XFlush(display);
#endif
}
@ -762,14 +795,14 @@ namespace paint
void graphics::paste(const nana::rectangle& r_src, graphics& dst, int x, int y) const
{
if(handle_ && dst.handle_ && handle_ != dst.handle_)
if(impl_->handle && dst.impl_->handle && impl_->handle != dst.impl_->handle)
{
#if defined(NANA_WINDOWS)
::BitBlt(dst.handle_->context, x, y, r_src.width, r_src.height, handle_->context, r_src.x, r_src.y, SRCCOPY);
::BitBlt(dst.impl_->handle->context, x, y, r_src.width, r_src.height, impl_->handle->context, r_src.x, r_src.y, SRCCOPY);
#elif defined(NANA_X11)
Display* display = nana::detail::platform_spec::instance().open_display();
::XCopyArea(display,
handle_->pixmap, dst.handle_->pixmap, handle_->context,
impl_->handle->pixmap, dst.impl_->handle->pixmap, impl_->handle->context,
r_src.x, r_src.y, r_src.width, r_src.height, x, y);
::XFlush(display);
@ -779,10 +812,10 @@ namespace paint
void graphics::stretch(const nana::rectangle& src_r, graphics& dst, const nana::rectangle& r) const
{
if(handle_ && dst.handle_ && (handle_ != dst.handle_))
if(impl_->handle && dst.impl_->handle && (impl_->handle != dst.impl_->handle))
{
pixel_buffer pixbuf(handle_, 0, 0);
pixbuf.stretch(src_r, dst.handle_, r);
pixel_buffer pixbuf(impl_->handle, 0, 0);
pixbuf.stretch(src_r, dst.impl_->handle, r);
}
}
@ -799,58 +832,58 @@ namespace paint
}
unsigned graphics::width() const{
return size_.width;
return impl_->size.width;
}
unsigned graphics::height() const{
return size_.height;
return impl_->size.height;
}
nana::size graphics::size() const{
return this->size_;
return this->impl_->size;
}
void graphics::setsta()
{
changed_ = false;
impl_->changed = false;
}
void graphics::set_changed()
{
changed_ = true;
impl_->changed = true;
}
void graphics::release()
{
dwptr_.reset();
handle_ = nullptr;
size_.width = size_.height = 0;
impl_->platform_drawable.reset();
impl_->handle = nullptr;
impl_->size.width = impl_->size.height = 0;
}
void graphics::save_as_file(const char* file_utf8) const throw()
{
if(handle_)
if(impl_->handle)
{
#if defined(NANA_WINDOWS)
int iWidth = static_cast<int>(size_.width);
int iHeight = static_cast<int>(size_.height);
const int iWidth = static_cast<int>(impl_->size.width);
const int iHeight = static_cast<int>(impl_->size.height);
BITMAPINFO bmpInfo = {};
bmpInfo.bmiHeader.biSize = sizeof(bmpInfo.bmiHeader);
bmpInfo.bmiHeader.biWidth = static_cast<int>(size_.width);
bmpInfo.bmiHeader.biHeight = static_cast<int>(size_.height);
bmpInfo.bmiHeader.biWidth = iWidth;
bmpInfo.bmiHeader.biHeight = iHeight;
bmpInfo.bmiHeader.biPlanes = 1;
bmpInfo.bmiHeader.biBitCount = 24;
const size_t lineBytes = ((bmpInfo.bmiHeader.biWidth * 3) + 3) & (~3);
const size_t imageBytes = iHeight * lineBytes;
HDC hdcMem = ::CreateCompatibleDC(handle_->context);
HDC hdcMem = ::CreateCompatibleDC(impl_->handle->context);
BYTE *pData = nullptr;
HBITMAP hBmp = ::CreateDIBSection(hdcMem, &bmpInfo, DIB_RGB_COLORS, reinterpret_cast<void**>(&pData), 0, 0);
::SelectObject(hdcMem, hBmp);
BitBlt(hdcMem, 0, 0, iWidth, iHeight, handle_->context, 0, 0, SRCCOPY);
BitBlt(hdcMem, 0, 0, iWidth, iHeight, impl_->handle->context, 0, 0, SRCCOPY);
BITMAPFILEHEADER bmFileHeader = { 0 };
bmFileHeader.bfType = 0x4d42; //bmp
@ -874,20 +907,20 @@ namespace paint
::nana::color graphics::palette(bool for_text) const
{
if (handle_)
return static_cast<color_rgb>(for_text ? handle_->get_text_color() : handle_->get_color());
if (impl_->handle)
return static_cast<color_rgb>(for_text ? impl_->handle->get_text_color() : impl_->handle->get_color());
return{};
}
graphics& graphics::palette(bool for_text, const ::nana::color& clr)
{
if (handle_)
if (impl_->handle)
{
if (for_text)
handle_->set_text_color(clr);
impl_->handle->set_text_color(clr);
else
handle_->set_color(clr);
impl_->handle->set_color(clr);
}
return *this;
@ -915,34 +948,34 @@ namespace paint
void graphics::blend(const nana::rectangle& r, const ::nana::color& clr, double fade_rate)
{
if (handle_)
if (impl_->handle)
{
nana::paint::detail::blend(handle_, r, clr.px_color(), fade_rate);
if (changed_ == false) changed_ = true;
nana::paint::detail::blend(impl_->handle, r, clr.px_color(), fade_rate);
if (impl_->changed == false) impl_->changed = true;
}
}
void graphics::set_pixel(int x, int y, const ::nana::color& clr)
{
if (handle_)
if (impl_->handle)
{
handle_->set_color(clr);
impl_->handle->set_color(clr);
set_pixel(x, y);
}
}
void graphics::set_pixel(int x, int y)
{
if (handle_)
if (impl_->handle)
{
#if defined(NANA_WINDOWS)
::SetPixel(handle_->context, x, y, NANA_RGB(handle_->get_color()));
::SetPixel(impl_->handle->context, x, y, NANA_RGB(impl_->handle->get_color()));
#elif defined(NANA_X11)
Display* disp = nana::detail::platform_spec::instance().open_display();
handle_->update_color();
::XDrawPoint(disp, handle_->pixmap, handle_->context, x, y);
impl_->handle->update_color();
::XDrawPoint(disp, impl_->handle->pixmap, handle_->context, x, y);
#endif
if (changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
}
@ -959,7 +992,7 @@ namespace paint
void graphics::string(nana::point pos, const wchar_t* str, std::size_t len)
{
if (handle_ && str && len)
if (impl_->handle && str && len)
{
auto const end = str + len;
auto i = std::find(str, end, '\t');
@ -968,15 +1001,15 @@ namespace paint
#endif
if (i != end)
{
std::size_t tab_pixels = handle_->string.tab_length * handle_->string.tab_pixels;
std::size_t tab_pixels = impl_->handle->string.tab_length * impl_->handle->string.tab_pixels;
while (true)
{
len = i - str;
if (len)
{
//Render a part that does not contains a tab
detail::draw_string(handle_, pos, str, len);
pos.x += detail::raw_text_extent_size(handle_, str, len).width;
detail::draw_string(impl_->handle, pos, str, len);
pos.x += detail::raw_text_extent_size(impl_->handle, str, len).width;
}
str = i;
@ -994,8 +1027,8 @@ namespace paint
}
}
else
detail::draw_string(handle_, pos, str, len);
if (changed_ == false) changed_ = true;
detail::draw_string(impl_->handle, pos, str, len);
if (impl_->changed == false) impl_->changed = true;
}
}
@ -1017,21 +1050,21 @@ namespace paint
void graphics::line(const nana::point& pos1, const nana::point& pos2)
{
if (!handle_) return;
if (!impl_->handle) return;
#if defined(NANA_WINDOWS)
handle_->update_pen();
impl_->handle->update_pen();
if (pos1 != pos2)
{
::MoveToEx(handle_->context, pos1.x, pos1.y, 0);
::LineTo(handle_->context, pos2.x, pos2.y);
::MoveToEx(impl_->handle->context, pos1.x, pos1.y, 0);
::LineTo(impl_->handle->context, pos2.x, pos2.y);
}
::SetPixel(handle_->context, pos2.x, pos2.y, NANA_RGB(handle_->pen.color));
::SetPixel(impl_->handle->context, pos2.x, pos2.y, NANA_RGB(impl_->handle->pen.color));
#elif defined(NANA_X11)
Display* disp = nana::detail::platform_spec::instance().open_display();
handle_->update_color();
::XDrawLine(disp, handle_->pixmap, handle_->context, pos1.x, pos1.y, pos2.x, pos2.y);
impl_->handle->update_color();
::XDrawLine(disp, impl_->handle->pixmap, impl_->handle->context, pos1.x, pos1.y, pos2.x, pos2.y);
#endif
if (changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
void graphics::line(const point& pos_a, const point& pos_b, const color& clr)
@ -1042,26 +1075,26 @@ namespace paint
void graphics::line_to(const point& pos, const color& clr)
{
if (!handle_) return;
handle_->set_color(clr);
if (!impl_->handle) return;
impl_->handle->set_color(clr);
line_to(pos);
}
void graphics::line_to(const point& pos)
{
if (!handle_) return;
if (!impl_->handle) return;
#if defined(NANA_WINDOWS)
handle_->update_pen();
::LineTo(handle_->context, pos.x, pos.y);
impl_->handle->update_pen();
::LineTo(impl_->handle->context, pos.x, pos.y);
#elif defined(NANA_X11)
Display* disp = nana::detail::platform_spec::instance().open_display();
handle_->update_color();
::XDrawLine(disp, handle_->pixmap, handle_->context,
handle_->line_begin_pos.x, handle_->line_begin_pos.y,
impl_->handle->update_color();
::XDrawLine(disp, impl_->handle->pixmap, impl_->handle->context,
impl_->handle->line_begin_pos.x, impl_->handle->line_begin_pos.y,
pos.x, pos.y);
handle_->line_begin_pos = pos;
impl_->handle->line_begin_pos = pos;
#endif
if (changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
void graphics::rectangle(bool solid)
@ -1077,21 +1110,21 @@ namespace paint
void graphics::rectangle(const ::nana::rectangle& r, bool solid)
{
if (r.width && r.height && handle_ && r.right() > 0 && r.bottom() > 0)
if (r.width && r.height && impl_->handle && r.right() > 0 && r.bottom() > 0)
{
#if defined(NANA_WINDOWS)
::RECT native_r = { r.x, r.y, r.right(), r.bottom()};
handle_->update_brush();
(solid ? ::FillRect : ::FrameRect)(handle_->context, &native_r, handle_->brush.handle);
impl_->handle->update_brush();
(solid ? ::FillRect : ::FrameRect)(impl_->handle->context, &native_r, impl_->handle->brush.handle);
#elif defined(NANA_X11)
Display* disp = nana::detail::platform_spec::instance().open_display();
handle_->update_color();
impl_->handle->update_color();
if (solid)
::XFillRectangle(disp, handle_->pixmap, handle_->context, r.x, r.y, r.width, r.height);
::XFillRectangle(disp, impl_->handle->pixmap, impl_->handle->context, r.x, r.y, r.width, r.height);
else
::XDrawRectangle(disp, handle_->pixmap, handle_->context, r.x, r.y, r.width - 1, r.height - 1);
::XDrawRectangle(disp, impl_->handle->pixmap, impl_->handle->context, r.x, r.y, r.width - 1, r.height - 1);
#endif
if (changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
}
@ -1138,10 +1171,10 @@ namespace paint
void graphics::gradual_rectangle(const ::nana::rectangle& rct, const ::nana::color& from, const ::nana::color& to, bool vertical)
{
#if defined(NANA_WINDOWS)
if (pxbuf_.open(handle_))
if (impl_->pxbuf.open(impl_->handle))
{
pxbuf_.gradual_rectangle(rct, from, to, 0.0, vertical);
pxbuf_.paste(handle_, point{});
impl_->pxbuf.gradual_rectangle(rct, from, to, 0.0, vertical);
impl_->pxbuf.paste(impl_->handle, point{});
}
#elif defined(NANA_X11)
if (nullptr == handle_) return;
@ -1155,7 +1188,7 @@ namespace paint
unsigned last_color = (int(r) << 16) | (int(g) << 8) | int(b);
Display * disp = nana::detail::platform_spec::instance().open_display();
handle_->fgcolor(static_cast<color_rgb>(last_color));
impl_->handle->fgcolor(static_cast<color_rgb>(last_color));
const int endpos = deltapx + (vertical ? rct.y : rct.x);
if (endpos > 0)
{
@ -1165,12 +1198,12 @@ namespace paint
auto y = rct.y;
for (; y < endpos; ++y)
{
::XDrawLine(disp, handle_->pixmap, handle_->context, x1, y, x2, y);
::XDrawLine(disp, impl_->handle->pixmap, impl_->handle->context, x1, y, x2, y);
unsigned new_color = (int(r += delta_r) << 16) | (int(g += delta_g) << 8) | int(b += delta_b);
if (new_color != last_color)
{
last_color = new_color;
handle_->fgcolor(static_cast<color_rgb>(last_color));
impl_->handle->fgcolor(static_cast<color_rgb>(last_color));
}
}
}
@ -1180,39 +1213,40 @@ namespace paint
auto x = rct.x;
for (; x < endpos; ++x)
{
::XDrawLine(disp, handle_->pixmap, handle_->context, x, y1, x, y2);
::XDrawLine(disp, impl_->handle->pixmap, impl_->handle->context, x, y1, x, y2);
unsigned new_color = (int(r += delta_r) << 16) | (int(g += delta_g) << 8) | int(b += delta_b);
if (new_color != last_color)
{
last_color = new_color;
handle_->fgcolor(static_cast<color_rgb>(last_color));
impl_->handle->fgcolor(static_cast<color_rgb>(last_color));
}
}
}
}
#endif
if (changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
}
void graphics::round_rectangle(const ::nana::rectangle& r, unsigned radius_x, unsigned radius_y, const color& clr, bool solid, const color& solid_clr)
{
if (handle_)
if (impl_->handle)
{
#if defined(NANA_WINDOWS)
handle_->set_color(clr);
impl_->handle->set_color(clr);
if (solid)
{
handle_->update_pen();
handle_->brush.set(handle_->context, handle_->brush.Solid, solid_clr.px_color().value);
::RoundRect(handle_->context, r.x, r.y, r.right(), r.bottom(), static_cast<int>(radius_x * 2), static_cast<int>(radius_y * 2));
impl_->handle->update_pen();
impl_->handle->brush.set(impl_->handle->context, impl_->handle->brush.Solid, solid_clr.px_color().value);
::RoundRect(impl_->handle->context, r.x, r.y, r.right(), r.bottom(), static_cast<int>(radius_x * 2), static_cast<int>(radius_y * 2));
}
else
{
handle_->update_brush();
handle_->round_region.set(r, radius_x, radius_y);
::FrameRgn(handle_->context, handle_->round_region.handle, handle_->brush.handle, 1, 1);
impl_->handle->update_brush();
impl_->handle->round_region.set(r, radius_x, radius_y);
::FrameRgn(impl_->handle->context, impl_->handle->round_region.handle, impl_->handle->brush.handle, 1, 1);
}
if(changed_ == false) changed_ = true;
if (impl_->changed == false) impl_->changed = true;
#elif defined(NANA_X11)
if(solid && (clr == solid_clr))
{

6
source/paint/text_renderer.cpp
View File

@ -70,7 +70,7 @@ namespace nana
auto ts = detail::text_extent_size(dw, ent.begin, ent.end - ent.begin);
if(ts.height > pixels) pixels = ts.height;
lenpx += ts.width;
widths.push_back(ts.width);
widths.emplace_back(ts.width);
}
pos.x += (endpos - pos.x - static_cast<int>(lenpx))/2;
@ -199,7 +199,7 @@ namespace nana
{
nana::size ts = detail::text_extent_size(dw, i.begin, i.end - i.begin);
if(ts.height > pixels) pixels = ts.height;
ts_keeper.push_back(ts);
ts_keeper.emplace_back(ts);
str_w += ts.width;
}
@ -417,7 +417,7 @@ namespace nana
for(auto & i : reordered)
{
nana::size ts = detail::text_extent_size(dw, i.begin, i.end - i.begin);
ts_keeper.push_back(ts);
ts_keeper.emplace_back(ts);
str_w += ts.width;
}

1
source/system/dataexch.cpp
View File

@ -13,6 +13,7 @@
#include <nana/system/dataexch.hpp>
#include <nana/traits.hpp>
#include <nana/paint/graphics.hpp>
#include <nana/paint/pixel_buffer.hpp>
#include <vector>
#include <cassert>
#include <cstring>

4
source/threads/pool.cpp
View File

@ -94,7 +94,7 @@ namespace threads
pto->suspended = false;
::pthread_create(&(pto->handle), 0, reinterpret_cast<void*(*)(void*)>(&impl::_m_thr_starter), pto);
#endif
container_.threads.push_back(pto);
container_.threads.emplace_back(pto);
}
}
@ -168,7 +168,7 @@ namespace threads
else
{
std::lock_guard<decltype(mutex_)> lock(mutex_);
container_.tasks.push_back(taskptr);
container_.tasks.emplace_back(taskptr);
}
}

11
source/unicode_bidi.cpp
View File

@ -536,7 +536,8 @@ namespace nana
}
else if (LRE <= *c && *c <= RLO)
{
stack.push_back(cur);
stack.emplace_back(cur);
if (begin_character)
{
_m_push_entity(begin_character, c, cur.level, begin_char_type);
@ -607,19 +608,21 @@ namespace nana
void unicode_bidi::_m_push_entity(const char_type * begin, const char_type *end, unsigned level, bidi_char bidi_char_type)
{
entity e;
levels_.emplace_back();
auto & e = levels_.back();
e.begin = begin;
e.end = end;
e.level = level;
e.bidi_char_type = bidi_char_type;
levels_.push_back(e);
}
}
std::vector<unicode_bidi::entity>::iterator unicode_bidi::_m_search_first_character()
{
return levels_.begin();
}
auto unicode_bidi::_m_eor(std::vector<entity>::iterator i) ->bidi_char
{
const auto end = levels_.end();